Integrator



A. F. SPERRY May 5, 1953 INTEGRATOR Filed oct. 30, 195i 2 SHEETS-SHEET l "Il 90' Ua/ INVENTOR. fe'f/ f5 May 5, '1953 A. F. SPERRY 2,637,496

INTEGRATOR Filed oct. :50, 1951 2 SHEETS-SHEET 2 IN V EN TOR. v 3

J5 75` BY L/ 47 19, 32 l MA 143%@ 10 Patentecl May 5, 1.953

INTEGRAT-OR Albert F. Sperry, Chicago, 111.-,v assignor-to Panellih v Inc., Chicago, Ill.-,-a corporation of Illinois Assem-isn `debster so, issus-enel 25a-,766

My invention relates generally to measurement apparatus, and more particularly to apparatus adapted to measure and integrate instantaneous values ci a variable, such as for example'- flow measurement as determined by pressure dinerentials.

A principal. object of my invention is to provide measuring apparatus which accurately measures and integrates instantaneous valuesoi a variable.

Another important object rof ymy invention-is to provide measuring apparatus which may be easily calibrated and adjusted in the eld.-

Anotheriobject is the provision oi measuring apparatus which may be quickly and inexpensively converted from linear correction to nonlinear correction, and vice versa, of the variable undergoing measurement.

velocity, a cam rotatable' with the turntablathe arcuate distances across `one' surface of the cam at different radii varying'according to a desired function such as-for examplea linear or-square root relation, aI member positioned adjacent` to the cai-mand `cleil'ected thereby as the cani-rotates, means for varying the position of the member relative to the centerA of rotationof the vcani-as the magnitude of the variable changes, a'rotatable wheel on' a movable support, the wheel -being engageable with the turntable upon deflection-of saidsupport, means interconnecting the Wheel support and the cam deflected member to coordinate (l) engagement of the wheel with theturntable, with' 2) the movement of the camoperated member', and counting means drivably connected to the wheel.

In order that my invention may be more fully disclosed, reference is had to the accompanying drawings, which illustrate one form of measuring apparatus embodying the foregoing andsuch otherv principles, advantages or capabilities as may be pointed out as this description proceeds, "Oras are inherent in the present invention. For purposes of clarity in exposition', the following description is explicit, and the accompanying 'drawings are detailed, but it is distinctly `to be vunderstood that said exposition is illustrative only, and that-my invention is not restricted to 'the particular details recited in the' specification 'or shown in the drawings.

5 claims.- (cil 235--6-1)y In thedrawingsr Figurezl-is afront elevational view, withsome partsv in section, ofy measuring apparatus embodying :ny-.,inventiorr;

Figureuzisa side view taken in section on the line-,Z-szlofl ligurel,l showing the apparatus in the engaged, or counting position;

Figure issimi'la'r to- Figure ZeXcept that the apparatus isshown inzthe inactive, or non-counting position; i

Figure Liis Ya general-side view taken in section on the line 4 4 of Figure 1;

Figure-51s a top-view taken inisection on the lines-5 of-FigureA; Y

Figures is afdetail-sideview as seenvirom the line; Se-Slofligure 5; and Y Figure is a wiringdiagram of the apparatus shownin -Figuresf 16'.

Like reference characters designate like parts inthe-drawings and inl-the' descriptionof my. invention `vvhich :follows hereafter;

Turning-now', to the drawings, and more particularlytoFigures-ll, 4 and tliereof', my measuring apparatus iss-shown as beinghoused ina easel-0- which isfprovided-with an' outer, removabie :cover H having aiviewlngwindow l2 frontl thereof. The. case I8 may be attached to a-swall,A column, or face off a panel by' means of the'attachinggstraps- I3 and I4; The interior of the-case Ill:V is divided byan uprightlpartition I5, on theba'cls-of .which partition is mountedasynchronous drivesmotorvl't. drive shaft I'I ex- 'tendsfrom themotor llthrough the partition I5, androtates thefturntalolel I3 ata constant angular velocity. A stub shaft I 9 in turn exten-ds from: the turntable 18, and carries upon it a removablefplate-cam.- The variations in shape which theplate cam* il'may take, and-the reasons for. such .different shapes, will be discussed below.

Referring now:1nore particularly to Figures l ande, the bottom of the-case r6 is pierced by Va conduit-2l throughy which a'- pressure inlet connection 22 isA led tothe `neceiver'bellowslf3. The

'bellows-123' isfsupported by-'the bracket 2S' which fis adjLista-bly'pnsitionable relative to the bottom of the case I and is lsecured in the desired position-by the fastener 25. 'Ihe'bellows 23 is adapted to beactuate'dby a pressure force, which forexample may be a differential air pressure'iorce transmitted-from anew meter transmitter. As

the' bellows-receive varying pressures, the armature 2S thereof moves in 'or out accordingly.

Still referring to' Figures 1` and 4, a yoke 27 is'pivotallyl mounted` between the plate '2'8 on thepartition- I 5, and the bracket member n29 extending from the plate 28. The armature 25 of the bellows 23 is pivotally fastened to the block 3 which is adjustable along the screw 3l of the yoke 2. In this way, the effective radius arm of the yoke 2l may be adjusted, as desired. Ex tending upwardly from the yoke 2i is a lever 352 which is made :flexible for a purpose to be described below. The pointer 33 of the lever 32 is movable along the scale 3d on the housing 35. Said housing 35 pivots about the shaft 3S (Figure 1), and is urged to move toward the plate cam 25 by the helical spring 3l (Figure 5). Extending along the lower portion of the housing 35, and positioned parallel to the shaft 33, is a freely rotatable bar 33, against which the lever 32 presses. As best shown in Figures 4 and 5, the lever 32 is provided with a roller 39 which is mounted on the arm eil. One end of the arm 45 is pivotally connected to the lever 32, While the other end is pivotally connected to one end of a link di. The other end of the link Il! is pivotally connected to the xed bracket member 29, as is best shown in Figure 1. This pivoted linkage thus maintains the roller 39 substantially perpendicular to the leading, beveled edge 52 of the plate cam 25, regardless of the position of the lever relative to said cam il). This construction thus eliminates the error caused by said thrust upon the roller 39, which otherwise would occur due to said roller 39 not being perpendicular to the edge 452 of4 the plate cam 23.

The position of the housing 35 controls the operation of the counting unit which is shown generally by the numeral d3. More particularly, the counting unit d3 includes a main support M from which extends a rst shaft 45. As best shown in Figures 2 and 3, a yoke $5 is rotatable about the shaft l5 and provides support for the second shaft lll. Said shaft el', while rotatable, is threaded to receive the friction drive wheel 48, which may be formed for example from such lmaterial as rubber, and which is adjustably secured to the shaft il by the retainer nut t9.

The one outer end of the shaft l1 includes a small pinion gear 5l) and a Calibrating dial 5l. The gear 55 meshes with the gear 52 which idles on the first shaft i5 and which in turn drives the gear 53 through the pinion 5A. The shaft 55, which is driven by the gear 53, actuates the counter 55, which records on the register 5l.

It will be apparent that each time the drive wheel i8 contacts the turntable i8, that the shaft 55 of the counter 55 will rotate, the angular velocity with which the shaft 55 turns depending upon the reduction obtained through the intermediate gear train. In order to control the engagement of the wheel i8 with the turntable I8,

the housing 35 is provided wtih a bracket 58 projects the bolt 63 which is held securely in;

place by the retainer nuts Sil, 55.

The interaction and reason for the various elements described thus far will be more apparent from a consideration of the description of the operation of the apparatus which follows.;

The fundamental forces which act upon the instrument to provide a measure of the variable under measurement, comprise pressure impulses which are transmitted to the bellows 23 through vthe inlet connection 22. As these impulses change ving manner.

in magnitude, the position of the lever 32 rela tive to the scale 35 changes accordingly. In the example shown in the drawings, the scale 35i is linear, such as for example might be the case where flow is being measured and the pressure input to the bellows is linearly proportional to said flow. This would be the case where the transmitter comprises an area type meter, rotarneter, or an orifice meter whose reading has been corrected so as to be proportional to the square root of the differential pressure at the orice.

As the position of the lever 32 changes in accordance with changes in the magnitude of the pressure transmitted to the bellows 23, the turntable i8 and the cam 25 thereon are rotating as a unit at a constant angular velocity in a counterclockwse direction, as viewed in Figure 1. Thus, each time the cam 2li rotates, the beveled edge d2 contacts the roller 35 on the arm 40, whereupon said roller 33 rides up upon the surface of the cam 2t. This acts to deflect the flexible lever 32 to the position shown in Figure d, which in turn swings the housing 35 outwardly against the opposition of the helical spring 3l. This latter position of the housing 35 is maintained so long as the roller 39 issupported by the cam 2li, The interval of time in each complete revolution of the cam 25 during which the roller 39 is contacted by said cam is a function of the distance of the roller 39 from the center of the axis of rotation of the cam 20. As will be apparent upon examination of Figure 1, as the lever 32 is displaced radially outwardly along the cam 23, the length of time during which the roller rides upon the cam 29 decreases. Since in the embodiment shown the scale lill is linear, so too is the relationship between the position of the lever 32 from the axis of rotation of the cam Qi), and the length of the arc traversed on the surface of the cam 2 by the roller 39.

Whenever the roller 39 is engaging the cam 20, the housing 35 is in the position shown in Figure 2. Hence the yoke i6 is displaced so that the friction drive wheel i8 engages the turntable i8. Whenever the roller 35 moves off of the cam 2li, the spring 3l immediately pulls the housing 35 to the position shown in Figure 3, whereupon the yoke i5 is deflected to disengage the wheel i8 from the turntable I5. Thus, the position of the lever 32 relative to the center of rotation of the cam 25 determines the interval of time during which the wheel i3 engages the turntable iii. Whenever the wheel i8 is thus engaged, the shaft lli rotates, and in turn rotates the shaft 55 of the counter 56 through the interconnecting gear train. In this fashion, the initial impulses to the bellows 23 are accurately converted into a reading at the register 5l.

In some installations it is necessary that the cam 25 be other than linear, to accurately integrate the values of the variable undergoing measurement. No problem exists in such a case, however, since it merely requires 'that the linear cam 2li be replaced by a suitably contoured cam, and the scale 313 changed to read in a correspond- Thus, in the case where the pressure which actuates the bellows 23 produced by an orifice meter whose reading is directly proportional to the differential across the orifice, rather than to the flow itself, then it is necessary that a cam providing a square root corrective function be substituted for the linear cam 2li shown. This modification is necessary since flow is proportional to the square"r root of the pressure dinerential at the orifice.-

As the apparatus-has thus far been described, o obtain an integrated reading itis necessary to aire a visual reading of the register In inany t is important that the in- :1 nsrnitted to a remote station, for such purposes as providing a 'more conzent reading, or for process control. 'llo this my apparatus may include an electrical imcountng device is best shown-in Figures d, sprocket 'Gt' is fixed to theI counter- Tne sprocket t5 inv turn drives the-link mounted upon the Vidler sprockets Sl, Positioned below the link belt 5t" is a bracl': t 't which isA turnable on the pin ll. A hair spring 'l2 acts to hold the bracket le in the position shown in Figure d. .Suspended below the bracket lil and retained by the spring 73, is a mercury switch 'ill irorn which the two lead 'l5 and it extend. As the idler sprocket il@ is rotated, the trigger 'i thereon rotates correspondte engage the trip pin 'lo extending outwardly from the bracket it. Each Lirne that the trigger ll enf-Tages the pin lt, it roclrs the bracket 'it against the res'raint of the hair spring l2 to close 'the switch 'iter ie trigent with the the bracket l switch 'il s or" impulses trip pin the spring l5, to its nornial position, again opens. In this way, a serie.,

s generated which kin nrrober are pr to the integrated instani is measurements, as r4 -f and recorded heter. These iniulses are in turn transmitted to the impulse-type counter lll, shown schematically in Figure 7.

[is will be apparent upon examination of Figure 7, ti e electrical circuit of the apparatus is relatively siinple. A terminal block il@ is secured to the partition l5, and includes four pairs of terminals 8| 32, 83 and 24. One side of the terminals 8| and t2 is connected `to a source of electrical energy, through the conduit 35 (il-'igure l). The other two sides oi the terminals Si, are connected to the synchronous drive motor I5 through the switch 36. The impulse counter "i9 is in parallel with the motor I5, but is connected through the terminals 83 and 34 so that the mercury switch l is in series with said impulse counter lll.

Advantageously, my novel apparatus includes a. variety ci adjustments which facilitate greatly the calibration of the instrument upon installation. Thus the bracket 2t on which the bellows 23 is mounted may be moved by loosening the fastener 25, so that the pointer 33 is in register with its corresponding value on the scale at any beginning test pressure. The screw 3l on the yoke 2l provides means for adjusting the relative position of the block S along the radius arm ol said yoke 2l. In this way the pointer 33 may be set to Inove the given distance along the scale 34 for a given pressure change transmitted to the bellows 23. Another convenient adjustment is provided through the adjustability of the drive wheel dal along the shaft lil. The retainer nut 49 nia-y backed oi to permit this adjustment whereupon it is again `tightened against the wheel 48 when the desired position is obtained. Adjustment oi the drive wheel i8 along the shaft lll, and hence relative to the radius arm of the turntable i3, perinits adjustment of the proportionality between the interval of time during which the housing 35 is deflected, and the increment thereby added to the register 5l.

6 To simplify both checking the proper setting of the instrument onr installation, and 'also'to malte any adjustments which may' be necessary,

known rate of nowy throu-gh observation of the dial 5i, thanby reading the counter registerlll. Thus, for example, in one commercial embodiinent oi rny invention, thercunter registers units of iioW in one hour at 1G97@ scale, while the Calibrating dial 5i rotates 3.56 R. P. M. at 109% scale. Since there are ten'units onthe dial 5i, this becomes 2136 units per hour on the calibrating dial, or a ratio'ofl 21.36 units at the dial 5| for every' one unit at the register 5l. Accordingly, it is much increv convenient and less time consuming to check andy adjust the counter' 'through observation of the dial 5l, thanthr-ough direct observation of the counter register 5l.

'aving therefore disclosed my invention for m asuring and integrating apparatus, andv demonstrated its utility by reference to a specic embodiment thereof, I claim:

l. In measuring apparatus, means for integrating instantaneous values of a variable, comp ising: a turntable, means for rotating said 'turntable ata constant angular velocity, a plate fixed to said turntable for rotation therewith, said plate including -a vfirst edge portion extending substantially radially of the axis oi rotation of said turntable, said plate further including a circumferential edge portion which connectsl the two ends of saidra'dial e'd'geportion, the generation of said circumferential edge portion proceeding according to a desired predetermined function, a housing positioned adjacent to said plate, means hingedly mounting said housing for swinging movement, a bar carried by said housing and positioned substantially parallel to said hinge means, spring means connected to said housing to urge the same toward said plate, stop means preventing said housing from contacting said plate, a pivoted, flexible lever bearing against said bar on said housing, means for shifting said lever along said bar toward and away from the axis of rotation of said turntable as the variable being measured changes in magnitude, a roller carried by said lever and positioned for engagement by said plate, the interval of time during which said roller is engaged by said plate during each revolution of the latter depending both upon the shape of said plate and upon the relative position of said lever along said bar, said housing being deflected away from said plate when said roller is engaged by said plate, a pivoted support adjacent said turntable, a rotatable shaft carried by said support and a wheel adjustably fixed to said shaft, means on said housing for rocking said support to drivably engage said wheel with said turntable each time said housing is deilected away from said plate, and a mechanical counter driven by said wheel shaft.

2. In measuring apparatus, means for integrating instantaneous values of a variable, comprising: a turntable, means for rotating said turntable at a constant angular velocity, a plate cam iixed to said turntable for rotation therewith, the arcuate distances across one surface of said cam at diilerent radial distances from the axis of rotation of said turntable varying according to a desired function, a housing positioned adjacent to said cam, means hingedly mounting said housing for -swinging movement, spring means urging said housing toward said cam, stop means preventing said housing from contacting said plate, a pivoted lever bearing against said housing, said lever being moved by said surface of said cam to deflect said housing, means for shifting said lever relative to the center of rotation of said cam as the variable being measured changes in magnitude, the interval of time during which said lever is moved to deflect said housing depending upon which portion of said cam moves across said lever, a rotatable frame adjacent to said turntable, a Wheel rotatably mounted on said frame, said Wheel being engageable with said turntable upon defiection of said frame, means interconnecting said housing and said frame to deect said wheel into engagement with said turntable when said cam deects said lever and thereby deects said housing, and counting means drivably connected to said wheel.

3. In measuring apparatus, means for integrating instantaneous values of a variable, comprising: a turntable, means for rotating said turntable at a constant angular velocity, a cam rotatable with said turntable, the arcuate distances across one surface of said cam at different radii varying according to a desired function, a member positioned adjacent to said cam and deflected by said cam surface as said cam rotates, means for varying the position of said member relative to the center of rotation of said cam as the magnitude of said variable changes, a first shaft parallel to the plane of said turntable, a yoke rotatable on said shaft, a second shaft, said second shaft rotatably mounted in said yoke substantially parallel to said rst shaft, a Wheel removablyl secured to said second shaft and engageable with said turntable upon swinging movement of said yoke on said first shaft, a first gear rotatable on said rst shaft and counting means driven by said first gear, a second gear fixed to said second shaft and meshed with said first gear, and means kconnecting said member and said yoke to engage said wheel and said turntable when said cam deiiects said housing.

4. Apparatus of the type dened in claim 3, in which said member comprises a pivoted lever and a roller positioned thereon to engage said cam.

5. Apparatus of the type dened in claim 4, in which said means connecting said lever and said yoke comprise a frame and means hingedly mounting said frame, a bar carried by said frame and contacting said lever on the side opposite said cam, spring means urging said frame toward said cam, a bracket extending from said frame, a spring between said yoke and said bracket acting to swing said wheel into engagement with said turntable when said frame is deflected by said lever, and an arm on said bracket which engages and moves said yoke to the disengaged position when said frame is not deflected by said lever.

ALBERT F. SPERRY.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 529,365 Connet et al Nov. 20, 1894 1,079,968 Ledoux Aug. 19, 1913 2,085,568 Beecher Aug. 3, 1937 2,329,400 Leone Sept. 14, 1943 

